TAX AVOIDANCE, EVASION, AND ADMINISTRATION
Joel Slemrod
The University of Michigan
Shlomo Yitzhaki
The Hebrew University of Jerusalem
Final version
February, 2001
2
Forthcoming in the Handbook of Public Economics, edited by Alan Auerbach and Martin
Feldstein. We are grateful to Wojciech Kopczuk for valuable research assistance.
Helpful comments on an earlier draft were received from Jim Alm, Alan Auerbach, Len
Burman, Brian Erard, Martin Feldstein, Firouz Gahvari, Roger Gordon, Jim Hines,
Jonathan Kesselman, Louis Kaplow, Jim Poterba, Agnar Sandmo, Dan Shaviro, Eric
Toder, Gideon Yaniv, the participants at the NYU Law School Colloquium on Tax Policy
and Public Finance and the handbook conference held at the University of California at
Berkeley.
Tax Avoidance, Evasion, and Administration
Joel Slemrod and Shlomo Yitzhaki
1. INTRODUCTION
1.a. Why Avoidance, Evasion and Administration are Central, Not
Peripheral, Concepts in Public Finance
Most economic analysis of taxation presumes that tax liability can be ascertained
and collected costlessly. As a description of reality, this is patently untrue. For example,
in the U.S. the Internal Revenue Service (henceforth IRS) estimates that about 17% of
income tax liability is not paid;1 the figure for most other countries is probably higher.
Furthermore, the resource cost of collecting what is paid can be large, in the U.S.
probably about 10% of tax collections.2 The tax structures themselves are undoubtedly
skewed by the realities of tax evasion, avoidance, and administrative costs.
The standard models of taxation and their conclusions, need to be modified in the
light of these realities. Many practitioners of tax advice in developing countries believe
that this change in emphasis is essential; for example, Casanegra de Jantscher (1990, p.
179) goes so far as to say that, in developing countries, "tax administration is tax
policy."3 Bird (1983), Mansfield (1988), and Tanzi and Pellechio (1996) are useful
summaries of the practical problems of the interaction of tax policy and tax
administration in this context.
We believe that these issues are also critical in developed countries. In this
setting, the issue is not the feasibility of certain taxes, but rather the optimality of
1 Internal Revenue Service (1996). 2 Slemrod (1996a). 3 Others disagree. Groves (1974, p. 25) offers that
"Vetoing tax measures because of the difficulty of administering them is in most cases
less compelling than doing so on the ground of their failure to conform to acceptable
principles. Administration is usually amenable to improvement where violation of first
principles is not. And administration of a given tax may often be improved most
effectively in the process of attempting to administer it. The point is sometimes crucial
in recommending taxes for so-called underdeveloped economies in our own time."
2
alternative tax structures. For example, while in many developing countries an income
tax that relies on self-reporting cannot be administered at all, in a developed country the
question is to what extent optimal tax design should reflect the reality of evasion, the
necessity of enforcement, and the costs of collection. In fact tax systems do reflect these
issues, although there is little systematic guidance offered by the academic public finance
literature. The objective of this chapter is to collect and critique the now sizable
litertaure that addresses these questions.
1.b. The Evolution of Tax Structures
Scholars of the historical evolution of tax structure, notably Hinrichs (1966) and
Musgrave (1969), have also stressed the importance of tax administration issues. They
note that modern tax structure development has generally been characterized by a shift
from excise, customs, and property taxes to corporate income and progressive individual
income taxes.4 This shift has been made possible by the expansion of the market sector
and relative decline of the rural sector, the concentration of employment in larger
establishments, and the growing literacy of the population. Further changes in the
technology of tax administration, including globalization and financial innovation, may
now be pushing us away from progressive income taxes toward tax systems that rely
more on broad-based consumption taxes such as the value-added tax (VAT), flatter rate
structures for income taxation, or the "dual income tax" system recently adopted by
certain Scandinavian countries, and described in Sorensen (1994).
Alt’s (1983) treatment of the evolution of tax structure stresses the role of
administrative and compliance costs. He argues that it has become increasingly easy to
collect taxes from organized business rather than from households, and that one
explanation for the widespread adoption of the VAT is that it imposes compliance costs
without raising administrative costs, through incentives for self-policing. Kau and Rubin
(1981) focus on changes in the cost of collecting taxes, and successfully relate growth of
the U.S. federal government to reasonable correlates of collection cost, such as the
literacy rate, the extent of female labor force participation, and the extent of the
4 Although Hinrichs (1966) points out that tax structure development began with direct taxes rather than
indirect taxes.
3
agricultural sector. Balke and Gardner (1991) contend that declining marginal collection
costs can explain the stepwise growth in the size of government and the changes of
taxation observed in the U.S. and U.K. They argue that major wars coincide with
permanent improvements in tax instruments and tax collection technology, which
facilitated permanent expansions in government size thereafter.
Putting aside the role of administrative issues in explaining the evolution of tax
levels and tax structures, it is indisputable that these considerations are critical
determinants of tax policy at a point in time. For example, an important set of generic
aspects of income tax structure, such as the absence of taxation of imputed rents from
consumer durables, taxation of capital gains (if at all) on a realization basis, and pre-set
depreciation schedules, are undoubtedly largely driven by practical concerns of
administerability. For these reasons, we believe that consideration of evasion, avoidance,
and administration is essential to the positive and normative analysis of taxation. Our
view corresponds closely to that of Blough (1952, p. 146):
It is tax policy in action, not simply the wording of the statute, that
determines how much the taxpayer must pay, and the effects of the
payment. Knowledge of the statute is only a start in knowing a tax
system. The interpretations placed on language by administrators
and courts, the simplicity and understandability of tax forms, the
competence and completeness of audit, the vigor and impartiality
of enforcement, and the promptness and finality of action all
influence the amount of revenue collected, the distribution of the
tax load, and the economic effects of the tax.
In this chapter we organize, explicate, and evaluate the modern literature that
incorporates these considerations into the economics of taxation.5 We do not claim to
have put together a comprehensive survey of this literature, which is huge and multi-
faceted, rather a guide to what we feel are the most important issues and contributions in
this area.
5 Other surveys of these issues include Cowell (1990b), Andreoni, Erard, and Feinstein (1998), Roth,
Scholz, and Witte (1989), and Alm (1999). Because of space constraints we have omitted any discussion
of the role of tax practitioners, corruption in tax administration, tax amnesties, or business tax evasion.
4
1.c. Evasion, Avoidance, and Real Substitution Response
We begin with some definitions. The classic distinction between avoidance and
evasion is due to Oliver Wendell Holmes, who wrote
"When the law draws a line, a case is on one side of it or the other,
and if on the safe side is none the worse legally that a party has
availed himself to the full of what the law permits. When an act is
condemned as evasion, what is meant is that it is on the wrong side
of the line..." (Bullen v. Wisconsin (1916), 240. U.S. 625 at p.
630).
Thus, the distinguishing characteristic of evasion is illegality.6 In practice, of
course, there are many gray areas where the dividing line is not clear, and sometimes the
tax authorities may inappropriately characterize particular cases.
One can draw a further distinction within the class of legal responses to taxation.
At times we will refer to real substitution responses, or real responses for short, as those
responses which come about because the tax law changes the relative price of different
activities, and that induce taxpayers to respond by choosing a different consumption
basket.
Conceptually distinct from real substitution responses are efforts to reduce one’s
tax liability without altering one’s consumption basket, which we will refer to as
avoidance. These are actions taken in response to the tax system that do not involve shifts
along a given budget set. This definition covers a broad range of behaviors. One
example is to pay a tax professional to alert one to the tax deductibility of activities
already undertaken. Another example is to change the legal form of a given behavior,
such as reorganizing a business from a C corporation to an S corporation,7
recharacterizing ordinary income as capital gain, or renaming a consumer loan as a home
6 Kay (1980, p. 136) offers a different pair of definitions for evasion and avoidance: "Evasion is concerned
with concealing or misrepresenting the nature of a transaction; when avoidance takes place the facts of the
transaction are admitted but they have been arranged in such a way that the resulting tax treatment differs
from that intended by the relevant legislation." 7 Under U. S. tax law an S Corporation retains the legal characteristics of a corporation, but is taxed as a
pass-through entity such as a partnership. There are restrictions to becoming an S corporation, most
notably on the maximum number of shareholders.
5
equity loan. A third example is tax arbitrage, when economically equivalent, but
differentially-taxed, positions are held simultaneously long and short, producing tax
savings. Finally, retiming a transaction to alter the tax year it falls under is an example of
avoidance.
Fine distinction among the types of behavioral response to taxation is not possible
and is for many issues not crucial. In general, changes in the tax structure will induce all
the different kinds of response. Indeed, one of the goals of this chapter is to emphasize
the common analytical aspects of issues that have traditionally been kept distinct.
1.d. General Framework
Although there may be reasons, discussed later, for distinguishing among these
categories of response to taxation, there is a common framework for analyzing these
issues. Given the structure of the tax system and enforcement process, taxpayers are
faced with opportunities to reduce their tax payments, or expected tax payments. There
is a private cost to taking advantage of these opportunities, which may take the form of
an altered consumption basket, an increasing probability of detection of, and penalty for,
evasion, and/or a real resource cost of effecting avoidance or concealing evasion. This
private cost depends on policies of the government that include, but are not limited to, the
setting of tax rates and bases. The parameters of the tax administration and enforcement
policies also matter, but these policies themselves are usually costly.
The tax system establishes the relative prices among this broad set of taxpayer
activities. In the standard model, it establishes the relative price of leisure and other
goods, as well as the relative price among the set of goods. In a more general framework
it also sets the price of "honesty," meaning the incentives to evade, and establishes the
cost and reward to legally reducing taxes via avoidance activities. The dimensions of
taxpayer response interact. For example, real behavior may alter the cost of avoidance or
evasion, thus changing the effective prices of real activities.
Although these are common themes, the literature to date has tended to isolate
pieces of the overall problem. We follow that practice here, by beginning in Section 2
6
with a discussion of the now standard economic model of tax evasion.8 Then in Section 3
we introduce models that apply more generally to both evasion and avoidance. We then
look at the empirical evidence, first in Section 4 about evasion, and then in Section 5 on
avoidance. The remainder of the chapter addresses the implication for tax analysis of
introducing these issues. Section 6 examines the fundamental issues of positive tax
analysis, while Section 7 addresses normative issues. Section 8 concludes.
2. THEORETICAL MODELS OF EVASION
2.a. The Allingham-Sandmo-Yitzhaki Model
Suppose that the true tax base is known to the taxpayer, but is not costlessly
observable by the tax collection agency. Then, under certain circumstances, the taxpayer
may be tempted to report a taxable income below the true value. In the seminal
formulation of Allingham and Sandmo (henceforth A-S) (1972),9 what might deter an
individual from income tax evasion is a fixed probability (p) that any taxable income
understatement will be detected and subjected to a proportional penalty ( ) over and
above payment of the true tax liability itself. Later we introduce and discuss at length a
"technology of evasion," in which evasion involves costs to the evader that might depend
on the income and the amount of tax evaded.
In the A-S model, all real decisions, and therefore taxable income (y), are held
fixed; only the taxpayer’s report is chosen. The risk-averse taxpayer chooses a report (x),
and thus an amount of unreported income y-x, in order to maximize expected utility:
(1) EU = (1 - p)U( + t(y - x)) + pU( - (y - x)),
where is true after-tax income, y(1 - t), t being the rate of (proportional) income tax.
The von Neumann-Morgenstern utility function U( ) represents the individual’s
8 There is a vast literature which investigates non-economic perspectives on tax evasion. We do not have
the space to discuss or evaluate this literature, and refer the interested reader to Roth, Scholz, and Witte
(1989).
7
preferences toward risk. In this model the choice of whether and how much to evade is
akin to a choice of whether and how much to gamble. Each dollar of taxable income
understatement offers a payoff of t with probability (1-p), along with a penalty of with
probability p. If and only if the expected payoff to this gamble, (1 - p)t-p , is positive,
every risk-averse taxpayer will chance some evasion, with the amount depending on the
expected payoff and the taxpayer’s risk preferences.
A critical issue, pointed out by Yitzhaki (1974), is whether the penalty for
discovered evasion depends on the income understatement, as A-S assume, or on the tax
understatement, as more accurately reflects practice in many countries. In the latter case,
the maximand becomes (1 - p)U( + t(y - x)) + pU( - t(y - x)), and the expected payoff
per dollar of evaded income becomes (1 - p)t - p t. This is an important change, because
it means that the tax rate has no effect on the terms of the tax evasion gamble; as t rises,
the reward from a successful understatement of a dollar rises, but the cost of a detected
understatement rises proportionately. The first-order condition for optimal evasion
becomes
(2) U y
A
U yU
p
p
' ( )
' ( )
( )1,
where yA and Uy refer to net income in the audited and unaudited states of the world,
respectively. Note that t does not appear in equation (2), other than via an income effect
in the definition of yA and Uy . Compare this to the original A-S formulation, where t
would be a multiplicative factor in the denominator of the right-hand side, implying that
increases in t would proportionally increase the reward to getting away with understating
income, but not proportionally increase the penalty, making evasion more attractive.
Regardless of whether the penalty depends on the tax understatement or income
understatement, more risk-averse individuals will, ceteris paribus, evade less.
Individuals with higher income will evade more as long as absolute risk aversion is
decreasing; whether higher-income individuals will evade more, as a fraction of income,
depends on relative risk aversion. Evasion relative to income will decrease, increase or
stay unchanged as a fraction of income depending on whether relative risk aversion is an
9 The Allingham-Sandmo paper applies to tax evasion the approach of the classic paper on the economics
of crime by Becker (1968).
8
increasing, decreasing, or constant function of income. Increases in either p or will
decrease evasion.
Increasing t has both an income effect and, possibly, a substitution effect. If the
taxpayer has decreasing absolute risk aversion, the income decline makes a less risky
position optimal. An increase in t has a substitution effect, increasing the relative price
of consumption in the audited state of the world, and thereby encouraging evasion, if the
penalty is related to income, rather than tax avoided. In the latter case, if the penalty is
related to the tax evaded, a tax increase has no substitution effect, so that an increase in t
reduces evasion as long as there is decreasing relative risk aversion.10
This simple version of the A-S model has been criticized on the grounds that it
fails a simple reality check. If p is the fraction of returns audited in the U.S., about 0.005,
and is the statutory penalty for non-criminal evasion, about 0.2, then based on the
degree of risk aversion exhibited in other situations people should be evading a lot more
than they apparently do. The intriguing question becomes why people pay taxes rather
than why people evade. Much subsequent research, some of it surveyed below, has been
addressed to reconciling the facts with the theory.11
In the A-S model what limits the amount of evasion attempted is the taxpayer’s
risk aversion. At some point further evasion becomes just too big a gamble, so that at the
chosen amount of evasion the marginal gain in expected tax savings is exactly offset by
the marginal disutility of the extra risk taken on.12
The model also predicts that a risk-
neutral individual would either remit no tax at all, or do no evasion, depending on
10 Note the similarity to the standard model of the effect of taxation on the optimal portfolio, in which a tax
increase can increase the demand for the risky asset (Domar and Musgrave, 1944 ). One difference is that,
in a portfolio model, it is arguably inappropriate to ignore the effect of the tax scheme on the variability of
government revenues (Gordon and Wilson, 1989). This issue can be sidestepped in the context of a tax
evasion model, because the "risks" are independent and therefore there is no social risk involved.
It is important to distinguish the effect of a change in the environment on evaded income (y - x) versus the
impact on evaded tax liability, t(y - x). With respect to changes in p and , there will be no interesting
distinction. However, when t increases it is certainly possible that (y - x) may decline at the same time t(y -
x) increases. 11 One problem with this argument is that, for many types of evasion, the effective probablity of detection
is much higher than the fraction of returns audited would suggest. For example, the p for non-reporting of
wage and salary income subject to information reporting by employers is probably close to 1.0. Moreover,
as long as several years of returns may be audited at once, the effective p may be several times higher than
a one-year probabilty of audit would indicate. 12 In the language of Kolm (1973), the evasion is accomplished by "the mere stroke of a pen." We consider
below where the evasion is facilitated by supplying labor to an "underground" sector which offers better
concealment possibilities.
9
whether evasion has a positive expected payoff. This "either-or" prediction is eliminated
if the probability of detection is an increasing function of the amount of evasion, which is
likely to characterize most tax systems. The implications of introducing an endogenous p
depend on the precise relationship between p and evasion. For example, consider the
case (discussed in Yitzhaki (1987)) where p is an increasing function of evaded income
(y - x). The risk-neutral taxpayer chooses x to maximize expected income,
(3) EY = ((1-p[y - x])( + s) + p[y - x]( - s)),
where s t(y - x) is understated tax. If p' p y x/ ( ) is positive, the first-order
condition becomes
(4) 1 1p p p s t' ( )( / ) .
In this case, evasion will be constrained by the fact that p increases to offset what would
otherwise be an increase in expected income.
The either-or prediction in the case of a risk-neutral taxpayer is also eliminated if
there are distinct sources of income, each of which is subject to its own p. For example,
employee labor income has a high p (due to information reporting by employers and
computer matching), while "moonlighting" income has a much lower p. Faced with this
situation, a risk-neutral individual reports all or none of each of the several sources of
income, but may certainly report a fraction of total income.13
The endogenous probability of detection can of course be applied to the case of a
risk-averse taxpayer. In this case, at the margin the gain in expected value is offset by a
combination of increased risk-bearing and an increased probability of detection. Cremer
and Gahvari (1994) generalize this notion by introducing what they call a "concealment
technology," which in our notation takes the form p(y - x, m,y/xy ) where m
represents taxpayer expenditure on concealment. The notion that the probability of
detection can be increased by the taxpayer's expenditure is also present in Usher (1986),
Kaplow (1990), Cowell (1990), and Mayshar (1991).
13 As discussed in the next section, differential detection rates could also affect the sectoral supply of labor.
10
2.b. Jointness With Labor Supply
Of particular interest is the relationship between the tax report decision and other
consumer decisions. Most attention has been paid to labor supply, where the individual
chooses how much labor to supply and how much labor income to report. The decision
about how much income to report is made simultaneously with the decision of how much
to work, so that it is impossible to adjust labor supply based on whether one is caught
evading. This problem may be posed as how much of a homogeneous labor income to
report, which is equivalent to simultaneously choosing one's consumption basket and
exposure to risk.14
Models that belong to this group are based on extensions of the A-S
model. Alternatively, the problem may be posed in the context of a model of the
underground economy, in which there are two sectors with possibly different equilibrium
wage rates and other different circumstances. The latter class of models allows for wage
adjustment in response to policy changes, and thus are general equilibrium in nature.
In the extensions of the A-S model, the first-order condition for labor supply
differs from that in a model without tax evasion only in that it contains mean marginal,
instead of marginal, utilities. Whether mean marginal utility is bigger or smaller than the
marginal utility depends on the sign of the second derivative of marginal utility, which is
the sign of the third derivative of the utility function. On top of that, if utility is non-
separable, the marginal utility functions depend on the sign of cross-derivatives, which
further complicates the problem.15
Baldry (1979) and Pencavel (1979) stress the
difficulty of reaching any clear-cut comparative statics conclusions from such a model;
the response of reported income to changes in tax rates, penalties, and fines becomes
ambiguous. Thus, most models are based on particular restrictive assumptions about the
utility function. For example, if the utility function is separable in consumption and
leisure, then the marginal utility of leisure is independent of consumption. If, in addition,
14 Models of this type resemble models of choice among risky occupations (e.g., Kanbur, 1979), except that
in the latter the occupational choice is usually discrete, so that a "diversified" occupational portfolio is not
allowed. 15 Moreover, the conditions that the equilibrium investigated is on the increasing portion of the Laffer
curve also depend on the curvature of the third derivative of the utility function, further complicating the
issue.
11
the marginal utility of consumption is linear (as in the function
U C L C C L( , ) 2 ), the first-order condition for optimal labor supply is
(5) ],L[U]s)p1(wL[wU)t1( 21
where s is the tax evaded and (1-p )s is the expected gain from evasion. Because evasion
increases expected consumption for any given amount of leisure without changing the
real wage, leisure would increase, and labor supply would decline. The real wage does
not decline because the evasion opportunities are independent of the amount of work
done. The critical importance of the relationship between the real consumption choices
and the evasion or avoidance opportunities comes up again in the more general models
discussed in Section 3. There we discuss cases where the avoidance opportunities do
affect the real wage. In situations where labor income in the formal sector is reported by
the employer to the tax enforcement agency as a matter of course, the only way to evade
tax may be by "moonlighting"-- working extra hours at a different job -- or by switching
completely to the informal sector or "underground economy."
2.c. Other Uncertainty
The basic model can also be extended to deal with other sources of uncertainty.
Andreoni (1992) introduces a temporal nature to the tax evasion decision, recognizing the
fact that the penalty for tax evasion, if detected, is assessed later than the tax saving.
Andreoni deviates from the majority of the literature which assumes efficient market
environments, and instead assumes that the taxpayer is constrained by credit rationing.
Due to uncertainty, the income of the taxpayer fluctuates, as does the shadow price of
income. Provided that non-monetary punishments are high enough to deter one from
non-repayment of penalties and tax evaded, evasion may be viewed as a way of
"borrowing" from the IRS. A constrained taxpayer may find it optimal to borrow when
the shadow price of money is high enough during evasion and relatively low during
12
repayment.16
Andreoni models a situation where, in bad times, individuals evade as a
way to smooth income streams; thus the IRS is a "loan shark." The conditional
repayment of the loan occurs in a better state of the world.
Another aspect of uncertainty concerns the unpredictability of the tax liability
itself, which arises when the "correct" tax liability is not clearly defined.17
Uncertainty
of true tax liability can be modeled by extending the Allingham and Sandmo framework.
Scotchmer and Slemrod (1989) construct a model where, upon audit, the assessed tax
liability is symmetrically centered around a known value with an equal probability of
one-half. In this case the very concept of income understatement becomes problematic
because the taxpayer is uncertain whether any given income declaration is correct or not.
There are now three possible outcomes that the taxpayer must consider. If the
return is not audited (with probability 1 - p), true taxable income is irrelevant--the
taxpayer merely pays the tax due on his declared taxable income. If the return is audited,
there are two possible outcomes, depending on what the assessed tax liability turns out to
be. Scotchmer and Slemrod (1989) show that increasing the dispersion of possible
assessed taxable incomes induces increased compliance, given weak conditions about the
taxpayer’s attitudes toward risk. The intuition is that, for a given reported income, more
dispersion lowers income in the least desirable state of the world, when the taxpayer is
audited and his taxable income is determined to be the highest possible value. This
increases the marginal utility of income in that state of the world, which is accomplished
by increasing reported income and thus subjecting oneself to a lower penalty in the event
this state of the world occurs. As long as the taxpayer exhibits declining absolute risk
aversion, increasing the report is the optimal response.
Beck and Jung (1987a) show that this conclusion may not hold when there is a
continuous range of possible taxable income assessments. In this case one marginal
benefit of increasing the income report is that it reduces the probability that a fine will be
assessed. For a taxpayer reporting income below the mean of possible assessment, an
16 In this case the government may find it optimal to encourage tax evasion. The optimality of such a
policy depends crucially on the non-existence of alternative methods of borrowing, including negotiated
payment terms with the IRS, which can in some situations be arranged in the U.S. 17 Long (1981) argues that the IRS exploits the unpredictability of tax liability to enhance its powers by
using it as a license to decide cases in whatever way serves the government’s interest at the time. She also
notes that unpredictability makes the IRS’s burden in providing criminal intent (rather than inadvertent
errors) more difficult.
13
increased dispersion of possible assessed incomes decreases the likelihood that the
income report will be declared insufficient and a fine assessed, so that this component of
marginal benefit is reduced. Thus, it is theoretically possible that increased dispersion
will cause a lower report.
Note that uncertainty does not reduce tax evasion by as much as it reduces
aggregate noncompliance in the sense of true aggregate tax liability minus tax paid. This
is because one effect of uncertainty is to induce some taxpayers to pay more tax than they
are legally obligated to pay, which reduces aggregate noncompliance but not the amount
of individual tax evasion.
Scotchmer (1989) allows for the possibility that, by expending resources, the
taxpayer can reduce the uncertainty of tax liability. The resources can be in the form of
research by the taxpayer himself, or in the form of professional assistance hired. In this
case the cost of unpredictability includes not only the disutility caused by uncertain tax
liability but also the resources expended to reduce the uncertainty.
2.d. General Equilibrium Considerations
The A-S model and its direct descendants address only the demand for tax
evasion by (potential) taxpayers. One might also consider the "supply" of evasion, and
ponder the general equilibrium considerations of demand having to equal supply.
One context for this extension is the underground economy. Kesselman (1989)
develops a set of models in which there are two sectors -- above-ground and
underground--which produce two distinct goods. Workers are homogeneous in their
gross productivity in each sector of the economy (and in their consumption preferences),
but must work only in one sector or the other. The workers, though, have differential
distaste and risk aversion for tax evasion, and differential efficiency in concealment and
other skills needed to operate successfully in the underground economy.
Although the precise results are model-dependent, three general conclusions
obtain: (i) much of the gain from evasion may be shifted from the evaders to the
consumers of output through lower prices, and the "marginal" evader gains nothing; (ii)
relative price effects tend to dampen the impact of tax rate changes on the extent of
evasion, and (iii) the effects of evasion on the marginal revenue response to tax rate
14
changes will depend on consumers’ elasticity of substitution between the sectoral
outputs.
A key aspect of the foregoing model is that the act of tax evasion is tightly tied to
the production of a distinct good. This need not be true, as is indicated by the
simultaneous presence of above-ground and underground housepainters, repair people,
and so on. Still, there is certainly evidence that evasion is concentrated in particular
sectors, such as those that supply services directly to homeowners, because of the small
scale of production that can aid concealment and the lesser need for receipts compared to
services provided to businesses.
3. GENERAL MODELS OF AVOIDANCE AND EVASION
Because Allingham and Sandmo addressed tax evasion as a gamble, much of the
subsequent literature focused on models in which taxpayers' risk aversion, and therefore
higher-order characteristics of utility functions, played an important role. This focus has
to some extent obscured other important aspects of the issue, such as the tax concealment
technology, and also obscured the common aspects of evasion and what we have called
avoidance. To highlight these issues we turn now to more general models of behavioral
response to taxation.
Mayshar (1991) poses the taxpayer’s problem as:
(6) Max U(Y,L)
X,S,L,Y
subject to X=w[L-S-m(E)]
and Y=X-T(X,S,E),
where X is output, S is sheltering effort, L is total labor effort, and Y is consumption.
Mayshar labels T( ) the "tax technology;" it specifies the maximal taxes, T, collectible
from a base X, when the tax authority selects a vector E of policy instruments, while the
taxpayer devotes S in labor units to sheltering activity. It is reasonable to assume that
TX>0 and TS<0 and, by construction TE>0. The function m(E) represents unavoidable
compliance costs associated with taxpaying, measured in labor units.
15
Although evasion as a gamble is not explicitly treated in this model, Mayshar
argues that it can be presented in this framework; to do so S is defined as that certain
payment which causes the same expected utility loss as the extra risk an evader takes on,
for given expected tax payments. This forms the link between the A-S models of tax
evasion and the models discussed in this section.18
From the perspective of an A-S
evasion model, TS<0 means that more evasion can lower expected tax payments, at a cost
of more uncertainty.
Consider the first-order conditions with respect to L and S, respectively, where
asterisks indicate an optimal value:
(7) -UL(Y*,L
*)/UY(Y
*,L
*) = w[(1-TX(X
*,S
*,E)]
(8) w[(1-TX(X*,S
*,E)] -TS(X
*,S
*,E),
where (8) holds as an equality if S* > 0.
Expression (7) looks familiar: the marginal rate of substitution between
consumption and leisure equals the net wage. But note that the effective marginal tax
rate, TX(X*,S
*,E), permits more complex marginal tax rates than the standard linear tax
model, where T(X*, S
*, E) would equal tX
*, and so TX would equal t. In expression (7),
the effective marginal tax rate may depend on the sheltering activity of the taxpayer
and/or the policy instruments of the government, interpreted more broadly than simply
announcing a tax schedule. Expression (8) states that, because sheltering is accomplished
by using labor, at an interior optimum its opportunity cost w(1-TX( )) will be equal to its
marginal private gain, which is the marginal tax saving, -TS.
Slemrod (2001) investigates a related model in which the private cost of
achieving reductions in taxable income (denoted A, for income avoidance) is C(wL, A),
where wL is true labor income; he argues that, in general, C1<0 and C2>0.19
If we imbed
18 Note that interpreting S, or C in the model of Slemrod (2001) discussed below, as the risk bearing cost of
evasion, will impose restrictions on the T ( ) or C ( ) functions. 19 Slemrod (2001 is less general than Mayshar in that it presumes a flat-rate statutory tax system; it does not
presume that tax sheltering or avoidance must be "produced" with the taxpayer’s own time. One
superficial difference is the adoption by Slemrod of a cost function approach to avoidance, compared to
Mayshar’s production function for tax receipts.
16
this avoidance technology into the taxpayer choice under a linear income tax, the
maximization problem becomes
(9) Max U(Y,L),
L,A
subject to Y=w(1 - L) - t(w (1 - L) - A) - C(wL,A).
Before pondering the general implications of this formulation, first consider the
special case where C(wL,A)=C(A). In this case the first-order condition for labor supply
is identical to the standard model without avoidance. The first-order condition for A is
simple and straightforward, C’ = t, implying that avoidance ought to be pursued until its
marginal cost equals its marginal saving in tax liability, equal to t. In this situation a tax
rate hike unambiguously increases A. Furthermore, its effect on L is no different than in
the standard model, except to the extent that the income effect is altered by the possibility
of avoidance.
The story is enriched when the avoidance, or tax, technology becomes C(wL,A).
The effective marginal return to working becomes w(1 - t - C1), where -wC1 is a subsidy
to working that Slemrod (1994) dubs the "avoidance-facilitating" effect; for example, a
given level of allegedly work-related deductions looks more plausible if it is taken
against a larger gross income. The term (t-C1) is analogous to TX in Mayshar’s model,
and makes explicit how the avoidance technology influences the incentive to supply
labor.
Several insights emerge from this modeling of the tax environment. First of all,
the substitution effect of labor supply does not respond identically to the two components
of the statutory after-tax wage rate, w and (1-t). Changes in (1-t) trigger avoidance
responses which are not triggered by changes in w. While both labor supply and
avoidance respond to both w and (1-t), they do not do so symmetrically. This implies
that econometric studies of labor supply (and avoidance) ought to differentiate responses
to w and (1-t). Furthermore, one should not conclude, as does Rosen (1976), that a
17
differential response to w and (1-t) necessarily represents "taxpayer illusion;"20
instead it
could be reflecting the avoidance technology.
Mayshar and Slemrod addressed the possibility that changes in the tax system will
induce from taxpayers all three types of behavioral response. For example, an increase in
the rate of a proportional income tax will provide an incentive to substitute leisure for
goods, to (depending on the penalty structure) increase evasion, and increase avoidance.
Other interactions among the three types of behavioral response have been investigated,
as well. Cowell (1990a) develops a model in which the taxpayer can evade, but can also
legally shelter income for a fixed cost and a constant marginal cost , where < t.
These cost assumptions generate the result that if an honest (or highly risk-averse) person
shelters any of his income (Y), then he will automatically shelter all of it, and will do the
latter if + Y < tY. Cowell then investigates whether sheltering will co-exist with
evasion, and asserts that the optimum is not characterized by an equality between the
marginal cost of avoidance and evasion. This is because sheltering reveals to the tax
authority that the taxpayer’s true income must be at least /(t - ). He argues that there
may be a class of shelterers who would also have been evaders, had it not been for the
attention drawn by sheltering, and that in some cases there may be a complete
polarization between evaders and avoiders.
In Cross and Shaw (1982), taxpayers must make expenditures to learn about and
(in the case of avoidance) document both avoidance and evasion activities.21
Two
avenues of interaction arise. First, in a progressive tax system, expenditure on avoidance
or evasion reduces the marginal tax rate, thus reducing the return to engaging in the
other.22
Second, investment in avoidance may reduce the marginal cost of evasion, or
vice versa. For example, while investigating an illegal but undetectable "tax shelter," a
(barely) legal tax shelter arrangement may be uncovered without much additional
investment of time.
20 Although, note that in his empirical analysis Rosen (1976) does not detect a significant differential
response. 21 In some situations, more evasion may be associated with less cost. For example, not bothering to trace a
miscellaneous source of income is less costly than tracking down whatever receipt or Form 1099 would
document the income. Not filing a return at all happens to minimize compliance cost. 22 Alm (1988) also examines the simultaneous choices of evasion, avoidance and reported income, and
investigates the effects of other fiscal variables on these choices.
18
4. DESCRIPTIVE ANALYSIS OF EVASION AND
ENFORCEMENT
4.a. The Extent of Tax Evasion
4.a.1. Data problems
Ascertaining the extent and characteristics of evasion immediately runs into two
problems -- one conceptual and one empirical. The conceptual problem is that, although
one can assert that legality is the dividing line between evasion and avoidance, in practice
the line is often blurry. Sometimes the law itself is unclear, sometimes it is clear but not
known to the taxpayer, sometimes the law is clear but the administration effectively
ignores a particular transaction or activity. The importance of these factors certainly
differs across situations.
The other difficulty is that, by its nature, tax evasion is not easy to measure --
merely asking just won’t do. Several different approaches have been attempted. One
approach relies on inferring the level or trends in noncompliance from data on
measurable quantities, such as currency demand or national income and product
accounts. The monetary indirect estimates are based on the presumption that most
unreported economic activity takes place in cash, and that some time in the past the
underground economy was small. In Gutmann (1977), increases in the ratio of currency
to demand deposits since 1937-41 measure the underground economy; in Feige (1979),
changes since 1939 in the ratio of total dollar transactions to official GNP since 1939
measure it. Tanzi (1980) estimates regressions explaining the ratio of currency to money
defined as M2, and interprets the portion explained by changes in the tax level as an
indication of changes in the size of the underground economy. None of these approaches
is likely to be reliable, however, as their accuracy depends either on unverifiable
assumptions or on how well the demand for currency is estimated. The indirect
19
noncompliance estimates based on discrepancies between national accounts measures of
income and income reported to the tax authority are also problematic. For one thing,
national income estimates of several key forms of income are based on tax return data.
Second, there are many inconsistencies between how income is defined for tax purposes
and for national accounts. However, Engel and Hines (1999), in a study of tax evasion
dynamics which focuses on the possibility of retrospective examination of previous-
years' returns, study this measure of evasion in the U.S. for the years 1947 to 1993 and
find that it responds as their model predicts. For example, annual fines and penalties
imposed by the IRS subsequent to audits are correlated with contemporaneous and
several lags of tax evasion as calculated from national income statistics.
The most reliable source of information about tax compliance concerns the U.S.
federal income tax, and exists because of the IRS’s Taxpayer Compliance Measurement
Program, or TCMP. Under this program, approximately every three years from 1965
until 1988 the IRS conducted a program of intensive audits on a large stratified random
sample of tax returns, using the results to develop a formula used to inform the selection
of returns for regular audits. The TCMP data consist of line-by-line information about
what the taxpayer reported, and what the examiner concluded was correct. This data
formed the basis for the IRS estimates of the aggregate "tax gap," and provides much
useful information about the patterns of noncompliance with respect to such variables as
income, occupation, line item, region of the country, age, and marital status. While
informative, it is widely recognized that even the intensive TCMP audits imperfectly
reveal particular kinds of noncompliance, such as income from the underground
economy.
4.a.2 Patterns of noncompliance
We cannot adequately review here what is known about the extent and nature of
tax evasion for all taxes in all countries at all times. Rather, in what follows we offer a
few salient facts about the recent U.S. income tax, mostly gleaned from the TCMP data
just discussed.
20
1. With audit coverage hovering below 1% and an extensive information reporting
and matching program, evasion is estimated to be 17% of true tax liability.23
2. The extent of evasion varies widely across types of gross income and deductions;
for example, the 1988 TCMP reports that the voluntary reporting percentage was 99.5%
for wages and salaries, but only 41.4% for self-employment income (Schedule C). These
percentages clearly correlate positively with the likelihood of income understatement
being detected.
3. Evasion (as measured by underreported income, not tax liability), rises with
income but at a less than proportionate rate. Christian (1994) reports that in 1988,
taxpayers with (auditor-adjusted) incomes over $100,000 on average reported 96.6
percent of their true incomes to the IRS, compared to just 85.9 percent for those with
incomes under $25,000.24
4. Within any group defined by income, age, or other demographic category, there
are some who evade, some who do not, and even some who overstate tax liability.25
For
example, of middle-income (auditor-adjusted income between $50,000 and $100,000)
taxpayers in 1988, 60% understated tax, 26% reported correctly, and 14% overstated tax.
(Christian, 1994, p. 39).
4.b. Determinants of Evasion
Empirical attempts to more systematically establish how compliance responds to
aspects of the tax environment have met with limited success, primarily due to the data
problems discussed in Section 4.a.1.26
Three approaches dominate the literature.27
23 It is probably higher in most other countries. For example, Alm, Bahl, and Murray (1991) put the figure
(for avoidance and evasion) at 46% for the Jamaican income tax of 1983. Richupan (1984) cites studies of
tax evasion in developing countries indicating that it is not uncommon for half or more of potential income
tax to be uncollected. 24 One explanation for this pattern is almost certainly that tax returns of high-income households are more
likely to attract IRS attention. Another potentially important factor is that the TCMP results do not account
for the noncompliance of business entities, which are more germane for higher-income individuals. 25 Note that Erard (1997) concludes that a large fraction of noncompliant reports may be unintentional. 26 A former colleague, Harvey Galper, once put the problem this way: "Regression analysis of tax evasion
is straightforward, except for two problems: you can’t measure the left-hand side variable, and you can’t
measure the right-hand side variables!" 27 In addition to the econometric methodologies discussed below, laboratory experiments typically
involving students engaged in a multi-period reporting game, have been employed. (See, for example,
Baldry (1987) and Alm, Jackson, and McKee (1992)). These results are subject to the canonical criticisms
of laboratory studies: that the setting is artificial, and the participants are not demographically similar to
21
4.b.1. Cross-sectional analysis
Clotfelter (1983) was the first attempt to make use of the TCMP data to
investigate how noncompliance responded to changes in the environment. He estimated
a tobit model, explaining, for each of ten audit classes, noncompliance as a function of
the combined federal and state marginal tax rate, after-tax auditor-adjusted income, and a
set of demographic variables available on tax returns. The most striking conclusion is
that noncompliance is strongly positively related to the marginal tax rate, with the
elasticity ranging from 0.5 to over 3.0. This finding is apparently consistent with the
basic A-S model, but not with the extension proposed by Yitzhaki.
Beron, Tauchen and Witte (1992) investigate TCMP data aggregated by the IRS
to the three-digit zip code level. They find that increasing the odds of an audit
significantly increases reported AGI and tax liability for some, but not all, of the groups.
In an attempt to deal with the potential endogeneity of the intensity of enforcement, they
model the simultaneous determination of tax reporting and the log odds of an audit for
each of the several audit classes in each zip code area. Their instrument for this is the
level of IRS resources relative to the number of returns28
. Although Beron, Tauchen, and
Witte argue that it is a valid instrument because the IRS has not been able to distribute its
resources among districts so as to achieve its goals, this is not convincing: it is reasonable
that the IRS attempts to target its resources toward areas believed to be particularly
noncompliant, thus invalidating use of IRS resources as an instrument.
Subsequent studies have produced mixed results. Of particular interest is work by
Feinstein (1991), who performed a pooled cross-section analysis of 1982 and 1985
TCMP data, thus mitigating the problem that in a single cross-section (other than for
cross-state differences) the marginal tax rate is a (complicated, non-linear) function of
income, making it difficult to separately identify the tax and income effect. Feinstein’s
those making the actual decisions, and therefore do not come to the decision problems with the same array
of experiences and expectations about the environment. These criticisms may be especially salient in this
context, because the experiments differ from general problems in choice under uncertainty only by the
labeling of the choice as having to do with taxes, and as compliant or not rather than gambling or not. 28 Dubin and Wilde (1998) perform a similar analysis on the zip-code aggregated data, and use the same
instrument. They defend this choice by claiming that, in an analysis of the time path of state-level IRS
budgets, they were found to be independent of compliance levels, and predominantly determined by the
share of total returns filed.
22
analysis suggests a negative impact of the marginal tax rate on evasion, which contradicts
Clotfelter’s results but is consistent with the A-S model as adjusted by Yitzhaki.
Klepper and Nagin (1989) investigate the characteristics of evasion across line
items, and find that noncompliance rates are related to proxies for the traceability,
deniability, and ambiguity of the items, which are in turn related to the probability that
evasion will be detected and punished. They also find evidence of a "substitution effect"
across line items, such that greater noncompliance on one item lowers the attractiveness
of noncompliance on others, because the latter jeopardizes the expected return to the
former by increasing the probability of detection.
4.b.2. Time-series analysis
Dubin, Graetz and Wilde (1990) make use of state-level time series cross-section
data from 1977 through 1986 to investigate the impact of audit rates and tax rates on tax
compliance. They do not, though, have a direct measure of noncompliance, but instead
use tax collections per return filed and returns filed per capita as (inverse) measures of
noncompliance. They conclude that the continual decline in the audit rate over this
period caused a significant decline in IRS collections -- amounting to $41 billion by
1985.
4.b.3. Controlled experiments
As discussed above, analysis of both cross-section and time-series historical data
is subject to severe difficulties of measuring the parameters of the environment and in
knowing the source of any variation in these parameters. Controlled experiments can
avoid all of these problems, but, for cost and other implementation reasons, are rare.
One recent exception is reported by Slemrod, Blumenthal, and Christian (2001),
in which the State of Minnesota Department of Revenue conducted a randomized
controlled experiment with respect to four aspects of the tax compliance environment:
the threat of an audit, the provision of special return preparation information services,
moral appeals, and a redesigned tax form. With regard to the first, they find that, for low-
23
and middle-income taxpayers, a threat of certain audit29
produced a small, but statistically
significant, increase in reported income, which was larger for those with greater
opportunities to evade.30
However, for high-income taxpayers the audit threat was
associated with on average a lower income report. The authors speculate that
sophisticated, high-income, taxpayers view an audit as a negotiation, and view reported
taxable income as the opening (low) bid in a negotiation which does not necessarily
resulted in the determination and penalization of all noncompliance. Based on the same
experiment, Blumenthal, Christian and Slemrod (forthcoming) find no evidence that
either of two written appeals to taxpayers' consciences had a significant effect on
aggregate compliance.
5. DESCRIPTIVE ANALYSIS OF AVOIDANCE
5.a. Dimensions of Avoidance
Stiglitz (1985) distinguishes three basic principles of tax avoidance within an
income tax: postponement of taxes, tax arbitrage across individuals facing different tax
brackets (or the same individuals facing different marginal tax rates at different times),
and tax arbitrage across income streams facing different tax treatment. Many tax
avoidance devices involve a combination of these three principles. In an example used
by Stiglitz, the basic feature of an Individual Retirement Account (IRA) is the
postponement of tax liability until retirement; if the individual faces a lower tax rate at
retirement than at the time the income is earned, then the IRA also features tax arbitrage
between different rates. Finally, if the individual can borrow to deposit funds in an IRA
and the interest incurred to finance the deposit is tax deductible, then the IRA is a tax
arbitrage between two forms of capital, one of which is taxed, and the other of which is
not taxed.31
Stiglitz argues that, with perfect capital markets, these three principles can
29 The audit threat was delivered by letter in January following the tax year. 30 The approach is a "difference-in-difference" analysis; that is, the increase in reported income over the
previous year of the treatment group is compared to the increase in reported income of the control group. 31 The IRA example makes clear that in certain cases (some of) the avoidance behavior is the result of a
conscious tax policy choice, in this case with the intent of increasing saving. Another excellent example is
capital gains, where taxation upon realization rather than accrual allows for deferral of tax liability, often
into periods of lower taxation, and where gains are completely excused from taxation at death due to the
step-up of tax basis.
24
be exploited to eliminate all taxes while leaving the individual’s consumption and
bequests unchanged relative to the zero tax case, and facing no more risk than in the
original situation. But capital markets are not perfect, and therefore all tax liability is not
eliminated by tax avoidance,32
and to reduce tax liabilities distorting actions (such as
investment in sectors where it is easier to convert ordinary income into capital gains) are
utilized. There is considerable empirical evidence testifying to the extent and tax
sensitivity of these kinds of avoidance behavior.
5.b.1. Retiming
There is abundant support for the notion that the timing of certain transactions can
be extraordinarily responsive to changes in tax rates. Perhaps the most striking example
was the response of capital gains realizations to the tax rate increase scheduled to occur
on January 1, 1987, but fully anticipated by the fall of 1986. Aggregate realizations in
1986 were twice what they were in any previous year or for several years thereafter. As
Burman, Clausing, and O’Hare (1994) document, capital gain realizations on corporate
stock in December of 1986 were seven times higher than in the previous December.
Another striking example of timing response is provided by Goolsbee (2000), who
documents that, in advance of the expected 1993 increase in the U. S. top individual tax
rate, corporate executives realized a huge amount of income in 1992, primarily through
exercising non-qualified33
stock options.
Sophisticated econometric techniques using panel data have been developed for
separately identifying the timing responses to tax rate changes over time from the
permanent behavioral response to a changed tax rate. These new techniques have been
applied to both capital gains realizations (Burman and Randolph, 1994) and charitable
contributions (Randolph, 1995). In both cases the results suggest that the retiming effect
dominates the permanent effect.
32 There are also policy responses to avoidance, such as limits on loss offsets and interest deductions. 33 For non-qualified stock options, the difference between the exercise price and the issue price is taxable at
ordinary income tax rates at the time of exercise, and is deductible from the employer's taxable income at
the same time.
25
5.b.2. Tax arbitrage
Tax arbitrage activity takes advantage of inconsistencies in the tax law, featuring
economically offsetting positions which have asymmetric tax treatments. Examples
range from sophisticated derivative financial instruments to the more mundane cases of
doing tax-deductible borrowing to finance tax-deferred IRA contributions or tax-exempt
bond purchases.
5.b.3. The classification of income
The classic example of income reclassification, also termed income shifting, is
turning ordinary capital or labor income into preferentially-taxed capital gains. In
another example, Maki (1996) and Scholz (1994) have documented that, following the
Tax Reform Act of 1986, there was a large shift from no-longer-deductible consumer
interest into still-deductible mortgage or home equity loans. There is anecdotal evidence
that, following the introduction of the R&D credit in the United States, much business
activity was "discovered" to have a significant research component. Gordon and
MacKie-Mason (1991, 1997) have investigated how, when the Tax Reform Act of 1986
lowered the top individual rate below that of the corporate rate, there was a large shift
from C corporations into S corporations, which are taxed like partnerships and therefore
are not subject to the corporation income tax. Gordon and Slemrod (2000) discuss the
shifting of income between the corporate and individual tax base via the method of
compensation, and document evidence of such shifting in the United States.
5.c. The Extent of Avoidance
No one has attempted to calculate for avoidance a counterpart to the aggregate
evasion "tax gap." There is, though, some indirect evidence that the avoidance tax gap is
large. Gordon and Slemrod (1988) calculated that the U.S. tax system of 1983 raised
approximately zero revenue from taxing capital income, due to the combination of
26
legislated deviations from a pure income tax and tax arbitrage.34
As to the incidence of
the avoidance opportunities, Agell and Persson (1988) and Gordon and Slemrod (1988)
argue that the availability of tax arbitrage opportunities will generally benefit those at the
bottom and top of the tax rate distribution, to the disadvantage of those in the middle.
This generally corresponds to low- and high-income individuals, respectively, but there
are exceptions to that rule; high-income individuals benefit through their ownership of
tax-preferred pension assets.
6. FUNDAMENTALS OF TAX ANALYSIS
Having completed a review of the positive, or descriptive, analysis of tax evasion and
avoidance, we turn now to the normative analysis of taxation. However, before we
proceed to that task, we must first reconsider the fundamental building blocks of tax
analysis -- the evaluative criteria of equity and efficiency -- to check whether these
concepts need to be revised.
6.a. Equity
6.a.1. Vertical equity
Analyses of the distributional impact of taxation, especially those based on tax
return data, ought to account for the presence of evasion. The evidence cited in Section
4.a.--that noncompliance as a fraction of true income declines with true income--suggests
that standard analyses of incidence based on the statutory rates and base may understate
the progressivity of the tax burden;35
Bishop, Chow, Formby, and Ho (1994) find this for
the United States using the 1985 TCMP data, although Alm, Bahl, and Murray (1991)
reach the opposite conclusion about Jamaica.36
34 It is likely that the Tax Reform Act of 1986 mitigated the avoidance tax gap by reducing the dispersion
of marginal tax rates and tightening up the rules about tax arbitrage behavior. 35 This evidence also suggests that tax return data may overstate the inequality in the distribution of
incomes. Because the data on tax evasion are flawed, one should keep in mind that the theoretical
arguments discussed in Section 5.c. imply that data on reported incomes will understate the true dispersion
of income. 36 A complete incidence analysis would account for the costs borne by evaders in the form of exposure to
risk and concealment expenses, neither of which is accounted for in the studies mentioned.
27
6.a.2. Horizontal equity
Horizontal equity -- the idea that equals should be treated equally by the tax
system, or that tax liability should not depend on any of a set of irrelevant characteristics
-- is central to an assessment of the impact of tax avoidance and evasion. To see this,
compare two tax situations, one in which there is a linear income tax rate of 20% and
everyone reports their true income, and another in which the tax rate is 40% and
everyone (costlessly) reports exactly half their income. In this case the two systems are
identical with respect to both horizontal and vertical equity. Now imagine that, in the
second system, on average everyone reports half their income, but that the fraction differs
systematically by income. In that case replicating the progressivity of the first tax system
will require a more complicated, non-linear, system of rates. If, however, evasion varies
within income classes, no revision of the tax rate schedule can compensate, and there will
be horizontal inequity.
In the context of the A-S model of tax evasion, the horizontally inequitable tax
burden will depend on the taxpayer’s degree of risk aversion. Less risk-averse
households will gain more from the availability of a gamble with given positive expected
value. In contrast, common parlance would ascribe any horizontal inequity to variations
in honesty, with the honest, or dutiful, citizens left holding the bag by the dishonest. In
the typical economic model, though, there are no honest or dishonest individuals, only
utility-maximizers; thus, this distinction can be introduced only artificially by simply
positing that some individuals do not pursue tax evasion. The same kind of artificial
differentiation across people can be made with regard to tax avoidance by positing that
some people have an aversion to such behavior; as Steuerle (1985, p. 78) says: "Some
taxpayers simply do not enjoy playing games no matter what the certainty of the return;
the U.S. tax system is designed to insure that such individuals pay a greater share of the
tax burden than those who are not so hesitant." Steuerle (p. 19) concludes that "taxpayers
pay unnecessary taxes because of the simplicity of their filing response or their lack of
knowledge of the tax laws."
6.a.3. Incidence
28
The theory of tax incidence -- who bears the burden of a given tax structure --
begins with three basic principles: (i) the burden of all taxes must be traced back to
individuals; (ii) individuals with relatively elastic demand (or supply) of a taxed good
tend to escape the burden of tax imposed on that good; and (iii) in the long run the
incidence of a tax levy does not depend on which side of the market bears the legal
responsibility for remitting the tax to the government. Introducing avoidance and
evasion preserves the methodological importance of the first two principles,37
but calls
the third into question. A complete analysis of the incidence of a particular tax requires
specifying the remittance process and positing an avoidance technology for both the
suppliers and demanders of the taxed good.
Avoidance opportunities alter the analysis of incidence for two separate reasons.
First, their presence affects the behavioral response to a change in the tax system, and
this alters what otherwise would be the change in equilibrium prices. Second, the
presence of avoidance alters the link between tax-inclusive prices and welfare. This
suggests that the incidence (not to mention the efficiency) of a tax may depend on which
side of the market the responsibility for remittance falls. That is in stark contrast to the
standard model, under which that is irrelevant to the long-run incidence.38
6.a.4. Are changes in the social welfare function necessary?
In models with heterogeneous citizens, the standard objective function is a social
welfare function which has as arguments the utility level of each citizen -- accepting the
individuals’ own relative valuations of goods and services -- where the shape of the
social welfare function implicitly determines the social value placed on the distribution of
utilities as opposed to the sum of utilities. In the presence of uncertainty, the expected
utilities of individuals are the relevant arguments -- accepting the risk preferences of
consumers. Cowell (1990b) questions the appropriateness of according the same social
weight to investigated and guilty taxpayers as is applied to the innocent or
uninvestigated, and argues that there may be a case for putting a specific discount on the
37 Section 2.d discusses some models of tracing the incidence of tax evasion. 38 There are exceptions. Consider, for example, the debate between Tanzi (1992) and Dixit (1991) over the
implications of tax collection lags for the optimal amount of inflationary finance. Tanzi (1992) argues that,
29
utility of those "who are known to be antisocial" (p. 136). Cowell investigates a few
alternative social objective functions, including one in which any private benefit derived
from the proceeds of evasion is assigned a social weight of zero, but in our opinion no
convincing alternative that provides reasonable policy prescriptions has yet been
presented.
6.b. A Taxonomy of Efficiency Costs
In the standard model the efficiency cost of taxation is entirely due to the fact
that, because of the change in relative prices, individuals are induced to select socially
suboptimal consumption baskets -- to substitute away from relatively highly-taxed goods
to relatively lightly-taxed goods, such as leisure. A standard exercise in optimal taxation
theory is to describe the tax system that minimizes these costs, or to describe the tradeoff
between these costs and the distribution of welfare in the society.
In the presence of avoidance and evasion, a broader concept of efficiency cost is
needed. In what follows, we describe and comment on three additional components of
the social cost of taxation and discuss the problems that arise in introducing these costs
into formal models of optimal taxation.
6.b.1. Administrative costs
Tax administrations deal, among other things, with information gathering. But
this is a difficult element to model because information varies in quality. There is a
qualitative difference between an auditor "knowing" that a given taxpayer is evading and
having sufficient evidence to sustain a court finding to that extent. Also, the cost of
gathering information depends on how accessible the information is, and whether it can
be easily hidden. There are several advantages to taxing a market transaction relative to
taxing an activity of the individual such as self-consumption. First, in any market
transaction there are two parties with conflicting interests. Hence, any transaction has the
potential of being reported to the authorities by one unsatisfied party. A second property
when consumption taxes are collected by firms in advance and held by them for the duration of the
30
is that the more documented the transaction, the lower is the cost of gathering
information on it. For this reason it is easier to tax a transaction that involves a large
company, which needs the documentation for its own purposes, than to tax a small
business, which may not require the same level of documentation. Finally, market
transactions establish arms-length prices, which greatly facilitate valuing the transaction.
Administrative cost may also be a function of the physical size and the mobility of the tax
base (it is harder to tax diamonds than windows), whether there is a registration of the tax
base (e.g., owners of cars, holders of drivers’ licenses), the number of taxpayer units, and
information sharing with other agencies.39
It is also an increasing function of the
complexity and lack of clarity of the tax law.
Administrative costs possess two additional properties that complicate the
modeling of tax administration issues: they tend to be discontinuous and to have
decreasing average costs with respect to the tax rate. To see the first property, consider
two commodity tax rates, denoted by t1 and t2. If t1 = t2, then only the total sales of the
two commodities need be reported and monitored. If, however, the two rates differ even
slightly, then the sales of the two commodities must be reported separately, doubling the
required flow of information. There are decreasing average costs because the cost of
inspecting a tax base does not depend on the tax rate (except to the extent that people are
more inclined to cheat with a higher tax rate). Hence, a higher tax rate reduces the
administrative cost per dollar of revenue collected (Sandford, 1973). Administrative cost
may also be a function of the combination of the taxes employed and their rates, because
the collection of information concerning one tax may facilitate the collection of another
tax (e.g., inspection of VAT receipts may aid the collection of income tax).
6.b.2. Compliance costs
Slemrod (1996a) estimates that, for the U.S. income tax, the private compliance
cost is about 10 cents per dollar collected. Sandford (1995) presents estimates for a
variety of taxes in several countries. Some of that cost is an unavoidable cost of
complying with the law, and some of it is voluntarily undertaken in an effort to reduce
collection lag, inflationary finance implies a real redistribution of income from consumers to sellers.
31
one’s tax bill, but in either case it approximately represents resource costs to society. In
almost all cases the private compliance costs dwarf the public administrative costs of
collecting taxes, which the IRS estimates at 0.6 cents per dollar collected for all the taxes
it administers.
Integrating compliance costs into formal models in a meaningful way is tricky.
As an example of the modeling difficulties this topic poses, consider the following
problem: when is it optimal to delegate to employers the authority to collect taxes and
convey information about employees, thus requiring the administration to audit both the
taxpayer agent and the taxpayer himself, and when is it optimal to deal only with the
employee? Clearly, given that the employer already has the necessary information, it
would save administrative costs to require him to pass it along to the tax administrator.
This might also reduce total social costs if the cost of gathering information by the
administration is higher than the increase in cost caused by imposing a two-stage
gathering system.40
However, the potential efficiency of involving taxpayers in the administrative
process must be tempered with a practical consideration. Administrative costs must pass
through a budgeting process, while compliance costs are hidden. Hence, there may be a
tendency to view a policy which reduces administrative cost at the expense of an equal
(or greater) increase in compliance costs as a decrease in social cost, because it results in
a decrease in government expenditures. We will discuss this issue further in Section 7.
6.b.3. The risk-bearing costs of tax evasion
In the Allingham-Sandmo model, tax evasion occurs only if the taxpayer expects
to increase his expected income by evading taxes, including the expected fines that he
would have to pay if he were caught; it continues until, at the margin, the increased
expected income is offset by the increased risk-bearing. Hence, a taxpayer who evades
taxes increases both his exposure to risk and his expected income. This additional
39 A good description of the properties of administrative cost can be found in Shoup, Blough, and
Newcomer (1937), pp. 337-51. 40 Note that a withholding system requires two information gathering systems and might generate
incentives for the withholding agent to evade the taxes it collects, or to collaborate with withholdees in
withholding less than required (Yaniv, 1988 and 1992). In a period of rapid inflation, the gain to the agent
from withholding may exceed the cost.
32
exposure to risk is a deadweight loss to society. In principle, the taxpayer could be better
off under an agreement whereby the taxpayer pays at least as much as the government
currently collects, while the government ceases to audit. Assuming a risk-neutral
government, the risk-bearing cost of tax evasion is equal to the risk premium that the
taxpayer would be ready to pay in order to eliminate the exposure to risk (Yitzhaki
(1987)). Depending on the other assumptions about the probability of detection, the
penalty structure, and risk aversion, the risk-bearing costs of evasion may be a
continuous function that increases with the tax rates. These costs are in addition to the
compliance costs voluntarily incurred by an individual attempting to minimize the
expected cost by camouflaging the evasion or shifting to an otherwise less remunerative
occupation.
7. NORMATIVE ANALYSIS
7.a. Optimal Tax Administration and Enforcement
Avoidance and evasion pose two challenges for the normative analysis of
taxation. First, they introduce a new set of policy instruments whose optimal setting is at
issue. These include the extent of audit coverage, the penalty imposed on detected
evasion, and the structural integrity of the tax code itself, which determines the extent
and nature of avoidance opportunities. Second, they invite a rethinking of standard
taxation problems, including the optimal setting of commodity tax rates and optimal
progressivity.
7.a.1. Optimal Penalties
Consider the A-S model of a representative consumer whose true income is
exogenous and whose only choice concerns how much of that income to report. This
choice depends on two policy instruments set by the government, p, which has a resource
cost due to the need for auditors and the related infrastructure, and , which is a fine for
detected evasion, which is a transfer with no resource cost.
33
It has been well known since Becker (1968) that in this setting a government
concerned with maximizing the ex ante utility of its representative citizen will want to set
as high as possible, allowing p to be as low as possible. This policy of "hanging
violators with a probability of zero" deters evasion while minimizing the resource cost of
the deterrent -- p represents a real resource cost but is simply a transfer. But this kind
of model ignores, inter alia, the possibility of a corrupt tax administrator who abuses the
system or, alternatively, harshly punishes someone who commits an honest mistake.41
The harsher the penalty, the more damage that can be inflicted by a corrupt administrator
or, in the case of an honest mistake, the more capricious the system is. Hence, the
harsher the penalty, the more detailed and cautious the prosecution process should be,
although this may increase its administrative costs. In the absence of modeling the
interaction between the penalty rate and administrative costs, analytical models usually
assume a ceiling on the penalty rate.
7.a.2 Optimal randomness
Auditing some taxpayers and not others inevitably introduces some ex ante
uncertainty and some ex post horizontal inequity. This suggests a link to an earlier
literature in public finance, in which Stiglitz (1982) and Weiss (1976) each argued that,
even in a world of risk-averse citizens, it may be optimal for the government to introduce
some randomness into its net tax (or transfer) to individuals. The argument depended on
the second-best nature of the problem, in which an income tax distorted the labor-leisure
choice. For some utility functions, Stiglitz and Weiss argued, the introduction of random
payments induced people to work harder, thus mitigating the labor market distortion; in
some cases the value of the increased labor more than offset the utility loss from the
randomness introduced.
This argument has clear implications for the optimal enforcement of the income
tax, because it suggests that one of the presumed social benefits of greater enforcement --
the reduced uncertainty of payment of a given expected value of taxes -- may be
mitigated by the increased labor supply distortion. Weiss uses approximations around
41 Polinsky and Shavell (1999) examine this and other issues involved in the optimal setting of penalties for
crime including but not restricted to tax evasion.
34
the point of no evasion to describe the condition under which allowing some degree of
evasion can both increase revenue and increase welfare. However, Yitzhaki (1987)
shows that, in the examples used by Weiss, the condition that allows successful evasion
is identical to the condition that the solution is on the declining portion of the Laffer
curve; in this case, any reduction of the tax rate would increase welfare and increase
revenue. This suggests that the improvement was not caused by allowing evasion. We
conclude that neither the practical nor hypothetical relevance of this point has not yet
been demonstrated.
7.a.3. The optimal extent of enforcement
For a given penalty structure how much resources should be devoted to enforcing
the tax laws? Or, in other words, what is the optimal probability of detection, p? Many
widely-used textbooks and several IRS commissioners presume that the answer is to
increase p until the marginal increase of revenue thus generated equals the marginal
resource cost of so doing. As Slemrod and Yitzhaki (1987) show, however, this rule is
incorrect. Intuitively, although the cost of increasing p (hiring more auditors, buying
better computers, etc.) is a true resource cost, the revenue brought in (through assessed
fines as well as higher compliance) does not represent a net gain to the economy, but
rather a transfer from private citizens to the government. The correct rule equates the
marginal social benefit of reduced evasion to the marginal resource cost; the social cost is
not well measured by the increased revenue, but is in this model related to the reduced
risk bearing that comes with reduced evasion.42
This result implies that privatization of
revenue collection will inevitably lead to a socially excessive amount of resources
devoted to that purpose unless restrictions are put on the resources and behavior of the
agency.
7.a.4. Optimal auditing rules
One of the key simplifying assumptions of the Allingham-Sandmo model is that
the probability of evasion being detected is fixed and unrelated to any actions of the
35
taxpayer. In Section 2.b we investigated the implication of p increasing with the amount
of evasion, but this relationship was exogenously imposed. Other models allow the audit
strategy of the tax collection agency (henceforth the IRS) to depend on the report of the
taxpayer in a way that maximizes an explicit objective function; the taxpayer, in turn,
forms some expectation of what the IRS’ auditing rule is, and acts accordingly. In
modeling the game between taxpayers and the IRS, researchers have generally assumed
that the IRS attempts to maximize net revenue collected. As we discussed earlier, this is
not likely to characterize the social-welfare-maximizing solution to how big the
enforcement budget ought to be, although it might characterize the optimal allocation of
resources for a given IRS budget. Another critical model element is whether it is
assumed that the IRS can commit to an announced audit rule, or whether it cannot
commit, and therefore will opportunistically audit whatever returns it wishes once the
returns are filed. Finally, it is critical whether the IRS budget is assumed to be fixed.
Following Reinganum and Wilde (1985), models of this question generally
assume that the probability of audit depends on reported income only. Most papers
conclude that the optimal strategy in this context is to randomly audit individuals who
report below some threshold level of income. In equilibrium only low-income
individuals report honestly, while high-income taxpayers report exactly at the threshold
level of income and are never audited. Sanchez and Sobel (1993) derive this result in the
context of risk-neutral taxpayers with a continuous distribution of actual income and no
labor supply decisions, and where penalties for detected evasion are bounded and
exogenously set. Cremer and Gahvari (1996) reach similar conclusions when they allow
for endogenous labor supply, although they consider just two types of individuals.
Mookherjee and P'ng (1989) consider risk-averse individuals. Imposing mild restrictions
on the level of risk aversion, they show that the optimal policy is characterized by
random audits and finite penalties. It is still true that above some income level taxpayers
are not audited, but it is no longer true that everyone reporting an income below that level
is honest.43
Scotchmer (1987) relaxes the assumption that the IRS can only observe the
taxpayer's report, and instead assumes that it is possible to assign taxpayers to a number
42 Note, though, that Baldry (1984) has shown that complete enforcement of income tax laws (p high
enough to deter evasion) is inefficient. 43 Note that, in all of the papers in this literature, in the optimal policy taxpayers revealed to be honest are
rewarded, a decidedly counterfactual prediction.
36
of audit classes based on observable characteristics. Although the optimal audit policy
within each class is similar to that described above, this policy introduces a regressive
bias to the effective tax system, because the agency will audit taxpayers with low-income
reports with higher probability than high-report taxpayers, thus making it less attractive
for low-income taxpayers to underreport income. This bias may be difficult to undo
through the statutory tax system if the tax code cannot depend on the audit class.
This state of affairs provides an obvious temptation to the IRS to reverse its pre-
announced audit rule and instead to audit only those taxpayers that report exactly the
threshold level of income; those that report below the threshold are, after all, reporting
truthfully. Because of that temptation, an announced precommitment is not likely to be
credible. Describing the equilibrium outcome in the absence of precommitment is more
complex, as Andreoni, Erard, and Feinstein (1996) discuss. One class of models, first
investigated by Graetz, Reinganum, and Wilde (1986), introduces a set of taxpayers at
each income level who report truthfully regardless of their incentives to do otherwise.
This enriches the model because it implies that at each level of income report there are
both honest and evading taxpayers. Melumad and Mookherjee (1989) take another tack
by assuming that although the government cannot commit to a particular audit policy, it
can commit to the total amount spent on audits. In this context they demonstrate that the
problem of commitment may be solved by delegating this task to a separate agency, and
they describe the optimal contract that guarantees a unique equilibrium and provides
incentives for the agency to audit optimally. Such a contract is welfare improving.
In the context of models of tax compliance in which the strategies of both the
taxpayers and the IRS are objective-maximizing, the impact of a change in, say, the tax
rate, depends on one’s forecast of how both sets of actors respond. For example, if the
tax rate increases it may become optimal for the IRS to audit more returns; in Graetz,
Reinganum and Wilde (1986), with an unconstrained budget, an increase in the tax rate
on the high-income taxpayers who are potential evaders decreases evasion.
Whether this prediction turns out to be accurate depends on whether in practice the IRS
budget increases concomitantly with the tax rate, and there is no empirical evidence that
supports this.
37
7.a.5. Optimal allocation of enforcement resources
Administrative costs are inputs into the revenue raising process. But what should
be the target of the administration, and how should economic considerations be
introduced into the tax-revenue production function? To address this issue, one has to
define the objectives of the tax administration and its production function -- how much
revenue is produced with different combinations of inputs (subject, of course, to the tax
law). Then one can analyze whether the allocation of funds for administration is efficient
or to check whether, as Tanzi and Pellechio (1996) put it, "personnel are often assigned
to tasks that have low productivity while important functions get unattended."
Yitzhaki and Vakneen (1989) develop a model that introduces microeconomic
considerations into the management of tax administration.44
They assume that the
objective of the administration is the maximization of revenue and that taxpayers can be
classified into groups based on having returns of similar complexity. These assumptions
allow them to present the inspection process of tax returns as a decision tree in which the
"inspector" has to spend a given amount of his time to review the return, and the reaction
of the taxpayer (whether to appeal) is determined by the quality of the assessment. If
they continue to disagree, the results are determined by the court. The solution to this
decision tree problem can be determined in a dynamic programming model. Estimation
of the decision tree enables one to estimate the present value of future tax revenue that is
collected by each activity of the tax administration. Yitzhaki and Vakneen argue that an
administration should equalize the rate of return, in terms of tax revenue, for each
activity. This principle should govern sampling of tax returns for inspection, as well as
which items on the return to inspect.
7.b. Optimal Tax Systems
The previous section addressed how to evaluate the appropriate setting of tax
enforcement instruments, for a given specification of tax base and rates. The more
general problem is to consider all of these aspects simultaneously, what Slemrod (1990)
44 See also Wertz (1979), the first modern treatment of the optimal allocation of the work force in a tax
collection agency.
38
calls the theory of "optimal tax systems." Certainly, the ease of administering various
taxes has critical implications for the optimal structure of tax systems. Tax codes which
are based on unobservable and practically unmeasurable quantities (such as an ability
tax) often look desirable on paper. Integrating the issue of administrative ease into
normative tax theory requires a shift of emphasis away from the structure of preferences,
which has been the principal focus of optimal tax theory, toward the technology of tax
collection.
7.b.1. The choice of tax instruments
With some exceptions, optimal tax theory has dealt with the issue of
administering a tax by making extreme assumptions about what kinds of taxes are
available to the policymaker. The fundamental results of optimal tax theory depend on
implicit assumptions about which taxes can be administered and which cannot. The
problem of optimal commodity taxation is interesting only because the possibility of
lump-sum taxation is ruled out,45
presumably because it is infeasible. Production
efficiency is desirable only if all commodities can be taxed and 100 percent taxation of
profits is feasible (or if no profits exist). When consumers are not identical, an ability tax
dominates an income tax because it causes no distortion in behavior. The study of
optimal income taxation is appropriate when ability taxes are ruled out, usually by
appealing to the difficulties of measuring ability for the purpose of basing tax liability on
it.
Extreme assumptions about the feasibility of tax instruments are analytically
convenient, but incorrect. Ability can be measured, although with some expense and
error. On the other hand, income cannot be measured perfectly, and the degree of
accuracy in income measurement depends on the resources expended toward this goal.
Extreme assumptions about the feasibility of tax instruments may also preclude
consideration of fundamental changes in policy.46
For example, a common assumption
45 To be sure, the optimal commodity taxation literature yields insights about the less analytically tractable,
but more realistic, multi-person environment. Nevertheless, in most models in which the use of lump-sum
taxes are limited, this is done as an assumption rather than as a choice based on the costs and benefits of
this instrument. 46 The desirability of introducing the choice among tax instruments into the optimal tax problem has been
noted by, among others, Hahn (1973) and Atkinson and Stiglitz (1980, p. 363), who state that "for a
39
made in optimal taxation models of developing countries is that income and consumption
arising in the agricultural sector are not taxable, although marketable surplus is taxable.
Much interesting analysis proceeds from this assumption, but none asks at what point it
makes sense for a country to attempt to tax agricultural income, even assuming that it
will have only limited success in doing so. There is clear evidence (Riezman and
Slemrod, 1987) that countries with low literacy rates tend to rely on highly distorting but
(relatively) easily collectable import and export taxes, and shy away from efficient but
administratively difficult land taxes. Under what conditions should an imperfect land
tax be tried? The answers to these questions depend on the resource cost of
administering the new tax instrument relative to its effectiveness, or degree of success.
This latter notion has several dimensions, including the true revenue yield and the extent
and nature of the mistakes that are made in administration.
Stern (1982) models the choice between an optimal nonlinear income tax, in
which income is costlessly observable, and a system of differential lump-sum taxes based
on characteristics of taxpayers which can be ascertained with some error. The lump-sum
tax system is superior if there are no errors in classifying individuals but, when enough
mistakes are made, income taxation may be the preferred system. Stern’s analysis
recognizes that the two tax systems each have their own information requirements (the
lump-sum system requires classifying individuals, the income tax system requires
observing incomes). The two systems will also likely have different administrative costs
as well, although for the sake of simplicity Stern assumes these costs are identical.
Greater accuracy in the classification of individuals could be achieved with higher cost,
as could more accurate measurement of income.47
The optimal tax system framework has also been applied to a more immediately
policy-relevant choice, that between direct and indirect taxes. It has frequently been
claimed that a shift from income taxation to value added taxation can combat evasion by
taxing the spending on goods from the compliant sector by individuals who evade taxes
on their income. Boadway, Marchand, and Pestieau (1994) consider the optimal mix
complete theory of the choice of tax base, a fully articulated model is necessary of the information
available to the government and cost of observing the different characteristics." Diamond (1987, p. 640)
agrees that this would be ideal, but adds that the standard simplifications "may do little damage to the
policy conclusions if the set of feasible policies is well chosen, although the problem of choosing well is a
difficult one."
40
between a general non-linear income tax and commodity taxes under the assumption that
evasion is possible only for the income tax. Granting this assumption provides a strong
case for commodity taxation to supplement an income tax. The authors recognize that
the results would have to be "seriously adjusted" (p. 73, fn. 2) if there is more evasion on
indirect than on direct taxes. In contrast, Kesselman (1993) concludes that changing the
tax mix toward indirect taxes will have little or none of the claimed anti-evasion effects.
Underlying this conclusion is a two-sector model in which the income tax is paid only by
workers in the above-ground sector, and the indirect tax is paid completely by above-
ground workers but incompletely in the underground sector. This is justified on the
grounds that to evade the income tax successfully requires evasion of the indirect tax on
output as well, since honest reporting of gross sales for the indirect tax would signal to
the authorities the extent of the income tax evasion. Which analysis better captures the
reality depends on the technology of tax avoidance and evasion.
7.b.2. Presumptive taxes
The general nature of the optimal tax systems problem is well illustrated by
considering a class of taxes -- known as presumptive taxes -- which are a pervasive
element in the tax systems of many developing countries. This kind of tax makes sense
in cases where the otherwise desirable tax base is difficult for the tax authorities to
measure, verify, and monitor. As a substitute for the desired base is the "presumed" tax
base, which is derived from a formula, which itself may be simple or complex, based on
more readily monitored items.48
For example, at one time in Israel a taxi driver had a
choice of a tax based on book income or a levy on the accumulated mileage of the
taxicab; for shopkeepers, the alternative to a tax on book income was a tax based on the
square footage of the shop and other observable characteristics of the business. The wide
47 This is an example of the issue of optimal "tagging" discussed in Akerlof (1978). 48 There are two general categories of presumptive taxes. In the first, tax liability is based on an easily
monitorable base which is presumably correlated with the ideal tax base. The tax on taxicab mileage or a
tax on electricity used by a laundry are examples. In many cases, the monitorable base is a specific input,
and the presumptive tax is actually a tax on an input. The second category includes (effective or de facto)
exemptions or floors, intended to eliminate monitoring costs of "nonfruitful" populations. Examples
include exempting businesses with less than a certain number of employees, or floors on deductible
expenses.
41
variety of presumptive taxes used in the developing world is nicely surveyed in Tanzi and
Casanegra de Jantscher (1989) and in Rajaraman (1995).
The problem that presumptive taxes address -- the difficulty of monitoring certain
potential tax bases -- is not confined to developing countries, and use of presumptive
taxes, albeit with different names, is also widespread in developed countries. Examples
include the use of fixed depreciation schedules in place of asset-specific measures of the
decline in asset value (economic depreciation), taxation of capital gains on a realization
basis, and floors on deductible expenses. Slemrod and Yitzhaki (1994) and Kaplow
(1994a) analyze the U.S. standard deduction as a presumptive tax; a higher value reduces
the administrative and compliance cost of monitoring itemized deductions, but it
increases horizontal inequity by increasing the range of taxpayers for which the "proper"
amount of deduction is replaced by a single number.49
Upon reflection it is clear that all taxes are presumptive, to some degree. The
conceptually pure tax base--be it the flow of income, wealth, sales revenue, or something
else - cannot be perfectly measured, and the tax authority is constrained to rely on some
correlate of the concept. We label particular taxes as presumptive when the calculation
of the tax base deviates in a substantial way from the ideal concept. But there is a
pervasive tradeoff between accuracy and the costs of complexity.50
7.b.3 Optimal commodity taxes
The characterization of optimal commodity taxes is a cornerstone of the standard
theory of optimal taxation, dating back to Ramsey (1927). The standard theory, though,
assumes that taxes on all commodities can be verified and collected costlessly.
Yitzhaki (1979) investigates the optimal size of the commodity tax base in a
representative consumer economy when there is a resource cost, related to
administration, to adding goods to the tax base. If, as he assumes, preferences over all
goods are Cobb-Douglas, then uniformity of rate for all taxed goods is optimal.
Expanding the tax base to cover more goods will reduce the excess burden of taxation,
but it increases the administrative cost. The optimal tax system equates the marginal
49 See also Sadka and Tanzi (1993), who argue in some situations for a presumptive tax on assets as a
substitute for a income tax.
42
excess burden of raising a dollar of revenue to the marginal administrative cost, and thus
minimizes the total resource cost of raising revenue. Wilson (1989) generalizes the
framework to constant-elasticity-of-substitution utility functions.
The fact that changes in administrative costs are likely to be discontinuous with
respect to changes in tax policy is important in more general treatments of the optimal set
of tax instruments. The theory of optimal taxation tells us that, except in special cases,
all goods should be taxed at different rates. However, it is likely that administrative cost
depends on the number of different tax rates as well as the number of commodities taxed.
This is not an issue when one assumes a utility function that implies uniform optimal
taxes (e.g., Cobb-Douglas), but is very important under more general preferences; in that
case there is a tradeoff between administrative and compliance costs on the one hand and
the standard excess burden on the other.
Both the Yitzhaki and Wilson papers assume that a commodity is either in the tax
base and taxed at the uniform rate, or out of the tax base entirely. Boadway, Marchand,
and Pestieau (1994), Cremer and Gahvari (1993) and Kaplow (1990) investigate general
characterizations of optimal commodity taxation with evasion, administrative costs and
costly enforcement.51
In Cremer and Gahvari (1993), the optimal tax on a commodity is,
ceteris paribus, lower when the elasticity of induced avoidance response to a tax increase
is higher; intuitively, this increases the marginal social cost per dollar raised from taxing
that commodity.
7.b.4 Optimal Progressivity
In the optimal linear income tax literature, where only a demogrant and single
marginal tax rate are chosen, what constrains redistribution is the marginal excess burden
caused per dollar raised by the marginal tax rate, and the fact that this ratio increases with
the marginal tax rate levied. Cremer and Gahvari (1994) investigate how the introduction
of evasion and concealment expenses change the optimal setting of a linear income tax,
when the audit probability is also optimally chosen. They characterize the optimal
50 Kaplow (1994, 1996) addresses the equity and efficiency issues involved in making this tradeoff. 51 Skinner and Slemrod (1985) suggest that enforcement policy can be part of an optimal tax system in
which the statutory tax rates are constrained to be suboptimal; for example, lax enforcement of a good
whose statutory tax rate exceeds the optimal rate may be appropriate.
43
marginal tax rate in the presence of evasion, but conclude that one cannot hope for an
unambiguous result in general about whether in a model with evasion the marginal tax
rate is higher or lower compared to in a model without evasion.
If other aspects of the tax system are not set optimally, there is no presumption
that the tax rate that is optimal, given the value of the other instruments, is also the global
optimum. To be concrete, if enforcement instruments are set suboptimally, so that the
marginal cost of raising revenue is higher than it need be, then the optimal tax rate will
appear lower than if the enforcement parameters are set optimally.
The point is that the optimal level of taxes or tax progressivity can be properly
assessed only simultaneously with the instruments the government uses to control
avoidance and evasion. Slemrod (1994) constructs an example of this issue by modeling
a two-person economy in which the only possible response to taxation is avoidance. The
government must choose three instruments to maximize social welfare: a demogrant, a
(single) marginal tax rate, and an avoidance-control policy denoted p, which at a cost
reduces both the level of avoidance and its responsiveness to changes in the marginal tax
rate. An example shows that, with p set suboptimally, the optimal policy can be to lower
t; however, a superior policy is to raise both p and t. The intuition here is that the
calculation of marginal excess burden of the marginal tax rate should be done assuming
the other policy instruments are set optimally. Using the metaphor of Okun (1975), the
"leak" in the revenue system, which limit both redistribution and the size of the public
sector, can be "fixed," albeit at some cost.
Slemrod and Kopczuk (forthcoming) expand on this notion by isolating the effect
of a policy instrument on the elasticity of taxable income, which summarizes the
magnitude of the behavioral response to taxes that limits optimal progressivity. They
formally characterize the optimal elasticity, emphasizing that in many settings it is
appropriate to think of this as a policy choice rather than an exogenous constraint. In a
special case where the policy instrument is the breadth of the tax base, Kopczuk and
Slemrod show that more egalitarian societies will feature lower elasticities of taxable
income, as will societies with a lower marginal cost of tax administration. Thus, this
research simultaneously addresses optimal progressivity and the optimal ease of
collecting taxes, and focuses on a critical difference between real substitution responses
on the one hand and avoidance and evasion responses on the other. Economists nearly
44
always assume that the former is an immutable, or primitive, parameter that is immune to
policy (or any kind of) manipulation. Whatever the truth of that assumption as it applies
to, say, labor supply response to taxation, it is certainly untenable as it applies to
avoidance and evasion responses. Their availability is certainly a (perhaps highly
constrained) policy choice. Truly optimal tax policy does not accept the current state of
administration and enforcement as given, but instead chooses these aspects and the
statutory tax structure together.
7.c. The Marginal Efficiency Cost of Funds
A principal theme of this chapter is that acknowledging the range of behavioral
responses to taxation suggests a rich set of new empirical and conceptual issues and alters
the answers to some fundamental questions of public finance. For some other questions,
though, the anatomy of behavioral response may not matter. For example, Feldstein
(1999) argues that, for the purpose of calculating the marginal efficiency cost of taxation,
the critical parameter is the tax rate elasticity of taxable income, and the etiology of the
elasticity -- be it increased leisure, evasion, or increased untaxed fringe benefits, for
example -- is irrelevant. The intuition is that at the margin people are willing to incur a
dollar's worth of cost to save a dollar of taxes, and that cost may take the form of a
distorted consumption basket, a fee to an accountant, or increased exposure to the risk of
punishment for evasion. However, because Feldstein derives this conclusion in a model
which allows real substitution response but neither avoidance nor evasion, it begs the
question of whether the taxable income elasticity is a sufficient statistic for measuring the
efficiency cost of raising taxes and for comparing the relative efficiency of alternative
ways to raise revenue.
This problem has been treated in the context of the concept referred to as the
marginal cost of funds or marginal efficiency cost of funds, and was developed by Usher
(1986), Mayshar (1990, 1991), Wildasin (1984), and Slemrod and Yitzhaki (1996). This
model also allows us to place the issues raised above into a more general normative
45
framework. We first discuss the concept in the absence of administrative costs, evasion,
or avoidance, and then extend it to apply to these issues.52
Following Mayshar (1991), assume that the government sets a level of public
goods, G, and a vector E of tax policy instruments so as to maximize V(U*(E,w),G),
where w is the wage rate and U* is the utility derived from private goods. He shows that
the optimum is characterized by MBF = MCFi, where MBF is the social marginal benefit
of funds (in terms of private consumption), and MCFi is the marginal cost of funds of tax
instrument i. Mayshar and Yitzhaki (1995) decompose the MCFi term into:
(10) MCFi = DCi*MECFi
where DCi is Feldstein's (1972) distributional characteristic of the tax instrument, while
MECFi is the marginal efficiency cost of the tax instrument. In the absence of evasion or
avoidance, MECFi is equal to Xi/MRi, where Xi is the change in revenue assuming no
behavioral response, and MRi (marginal revenue) allows behavioral response. Thus, in
the case of an income tax, Xi/MRi equals 1/(1 + i), where i is the elasticity of taxable
income with respect to tax instrument i.
Note that the above interpretation is not limited to reforms involving tax rates.
One may define the marginal cost of funds with respect to marginal changes in any
parameter of the tax system (e.g., income brackets, exemption levels, penalties for tax
evasion, etc.). Nor does its application rely on an assumption that tax policy has been set
optimally. As Slemrod and Yitzhaki (1996) show, away from the optimum the MECF
concept can be used to identify incremental changes in the tax system that would increase
social welfare.
To see how the MECF can be extended to evasion and avoidance, recall that the
potential change in tax revenue (assuming an inelastic base) is Xi but, because of
taxpayers’ response, the government collects only MRi. We can divide the potential tax
Xi into two components as follows:
(11) Xi = (Xi - MRi) + MRi,
where MRi dollars are collected and (Xi - MRi) "leaks" outside the tax system. The
critical question is how to evaluate, from a social point of view, the leaked dollars. To do
52 Although what follows can be generalized to apply to a multi-individual framework and to public goods,
here we restrict ourselves to the representative individual model of tax analysis. See Slemrod and Yitzhaki
(forthcoming) for a treatment of the more comprehensive problem.
46
this one must ask how much a taxpayer is ready to expend (on the margin) to save a
dollar of taxes or, alternatively, how much utility loss he is willing to suffer to save a
dollar of taxes. The answer is that a rational taxpayer will be ready to sacrifice up to, but
no more than, one dollar in order to save a dollar of taxes. Hence, on the margin the
private cost, which is equal to "leaked" dollars multiplied by their cost per dollar, is Xi -
MRi; the collection of MRi dollars results in a loss of (Xi - MRi) to the taxpayer over and
above the taxes paid. If we assume that the utility loss to the individual (private cost) of
the leaked tax revenue should be accorded the same social cost as the utility loss due to
the taxes paid, then the cost to society of transferring a dollar to the government is (Xi -
MRi)/MRi = (Xi/MRi) -1. The total marginal cost to the individual taxpayer, including
the taxes paid, is Xi/MRi.
Consider now a taxpayer who also has the option to evade part of the additional
tax. On the margin, he would be ready to sacrifice utility valued at one dollar (in
additional risk bearing due to evasion and/or due to substitution to cheaper but less
rewarding activities) in order to save a dollar of taxes. Hence, we do not have to know
whether the "leak" was through evasion or real substitution to evaluate the costs to
society. The same rule applies to avoidance activity and, in fact, to any activity under
taxpayer control. Therefore, all one needs to know is the potential tax (i.e., assuming an
inelastic tax base) that will be collected from a change of a parameter of the
tax system, and the actual change (taking into account all behavioral responses) in order
to evaluate the marginal efficiency cost of raising revenue. It is in this sense that
Feldstein’s (1999) claim about the central importance of the elasticity of taxable income
generalizes to avoidance and evasion.
Calculating the MECF involves two critical assumptions that deserve further
attention. The first of these is that at the margin the taxpayer sacrifices exactly one dollar
(instead of up to one dollar) to reduce tax liability by one dollar. However, it may be that
the taxpayer is at a corner solution with respect to behavioral response, so that the
marginal utility loss may be less than a dollar. For an example of a taxpayer at a corner,
consider the case of individual retirement Accounts (IRAs). An employee can contribute
up to $2,000 per year into an IRA, deduct the contribution from taxable income, pay no
tax on accrued earnings in the account, and pay tax on the principal when withdrawn.
Although IRAs were designed to increase saving, there is nothing to prevent an
47
individual who in the absence of taxes would have invested $4,000 in a similar account
from diverting $2,000 into the IRA. There may be a cost to this, as IRAs have early
withdrawal penalties which in some cases limit the flexibility of using these funds. Thus,
contributing to an IRA can save taxes, does not require a change in one’s consumption
basket, but may entail some cost. However, it cannot be presumed that, at the margin of
an IRA contribution, the private value of the sacrifice is equal to the tax saving; the IRA
contribution is limited to $2,000 only because of the statutory limit on contributions. As
another example, consider the MECF of raising the tax rate on labor income in a situation
where, in an economy with two taxpayers, one taxpayer reports no labor income at all
and, at that corner, is bearing risk valued at 20 cents (rather than a dollar, as would be
true at an interior solution) to evade, including penalties, an expected value of one dollar.
The other taxpayer, with identical labor income, reports all of it. Assuming no labor
supply or avoidance response, the MECF with respect to an increased tax rate is 1.2.
To take account of the possibility of the taxpayer being at such corner solutions,
one can generalize the expression for the MECF by introducing a parameter , 0< 1,
which is a weighted average of the marginal value to the taxpayers of the leaked revenue,
Xi - MRi. Introducing reduces the simplicity of the MECF expression because its value
varies, depending on the situation under study.
The second critical assumption is that the cost borne by taxpayers in the process
of reducing tax liability is equivalent to the social cost. This is certainly true in many
situations, such as when the private cost takes the form of a distorted consumption
basket. But in some cases the private cost is not identical to the social cost. An example
is when the act of the taxpayer causes some externality. Consider the case where being
caught evading imposes a stigma on the taxpayer, as in Benjamini and Maital (1985) or
Gordon (1989), and assume that the larger the number of evaders the lower the stigma
attached to each act. In this case the social cost of evading taxes diverges from the
private cost because the potential evader does not take into account the impact of his
action on other members of the society.
Fines for tax evasion present another example of the potential divergence between
the private and social costs of tax-reducing activities. The possibility of a fine for
detected tax evasion is certainly viewed as a cost by the taxpayer, but from society’s
point of view it reduces the amount of revenue that would otherwise have to be collected.
48
(This is in contrast to imprisonment, unless the prisoner is forced to produce socially
valuable products while imprisoned.) Thus, the MR term should include fine collections.
Note that, if the fine itself is the policy instrument, this argument implies that its MECF
could be close to zero, and almost certainly less than one, making an increase in fines
look like an attractive policy option indeed. As discussed in Section 7.a.1, there are
reasons unrelated to efficiency cost minimization which render undesirable increasing
fines for tax evasion without limit.
Applying the MECF rule to administrative and compliance issues clarifies the
common thread tying together models of optimal tax systems. In the generic problem,
there are two ways to raise revenue: to increase a set of tax rates, and by so doing to
increase excess burden, or via an alternative which involves increasing administrative
costs (e.g., by broadening the tax base as in Yitzhaki (1979), or by increasing the
probability of a tax audit, as in Slemrod and Yitzhaki (1987)). On the margin, it is
optimal to equalize the marginal costs of raising revenue under the two alternatives. If
one defines the costs of taxation as deadweight loss plus administrative costs, at an
optimum the MECF of each tax rate should be equal to the MECF of administrative
improvements that raise revenue. In calculating the MECF of administrative
improvements, it is important to account for the fact that these expenses come out of
funds that were presumably raised with tax instruments that have an MECF in excess of
one. In other words, administrative improvements that raise net revenue decrease the
excess burden; hence, on the margin and for given revenue, the saving in excess burden
should be equal to the increase in administrative costs. In this way, the MECF criterion
can be applied to tax administration, too.53
Compliance costs are additional costs imposed on the taxpayer. Therefore, they
should be added to the burden imposed on the taxpayer. They serve as a substitute to
administrative costs, but the expenses are borne directly by the taxpayer rather than
through the government budget.
The revised MECF that includes all these factors, derived and discussed in
Slemrod and Yitzhaki (1996), is
53 Yitzhaki and Vakneen (1989) use the term "the shadow price of a tax inspector," which is the revenue
collected by adding another tax inspector. Note that the MECF is actually the reciprocal of the shadow
price of a tax inspector.
49
(12) ii i i i
i i
MECFX MR C MR
MR A
( ),
where is the social value of the utility the taxpayer is sacrificing at the margin in order
to save a dollar of tax. Ci is the marginal private compliance cost associated with the ith
instrument, Ai is the marginal administrative cost, and MRi - Ai is the net revenue
collected at the margin. The intuitive interpretation of the expression is the same as
before, with some qualifications. The potential tax is Xi. Xi - MRi is leaked at a social
cost of per dollar, MRi is collected by the government, and Ci is the additional
involuntary compliance cost. Hence, the total burden on society is the sum of those
components. Of the MRi collected by the government, Ai is spent on administration,
leaving MRi - Ai in the coffers. The MECF is the burden on society divided by what is
collected after subtracting the cost of doing business. This yields the marginal costs of a
dollar collected.
Because in equation (12), Ci is added in the numerator and Ai is subtracted in the
denominator, the key conceptual difference between the two is explicit -- only the latter
uses revenue raised from taxpayers. To illustrate this difference, consider that a tax for
which Ci = MRi (with Ai and Xi - MRi = 0) might conceivably be part of an optimal tax
regime (if the MECFs of other instruments exceed two), it would never be optimal to
have Ai = MRi, for at the margin this instrument has social cost but raises no revenue.
As emphasized in Slemrod (1998),applying this notion using empirical estimates of
the taxable income elasticity must be done with care. Foremost is the need to consider
the elasticity of the present value of tax revenues. Recall that a class of avoidance
responses involves the retiming of taxable-income-generating events. If a tax policy
change causes retiming, focusing only on the revenues in a subset of periods will bias the
findings. For example, the taxable income response to an anticipated future decrease in
tax rates must consider the lost revenue in the period before the tax rate change.54
Similarly, if a tax change causes an increase in deferred compensation, the increased
future tax liability must be netted against any decline in current tax payments.
Furthermore, any change in taxable income in one tax base must be netted against
54 Feldstein (1999) recognizes the timing effect, but whether the empirical analysis of the 1986 tax changes
from which he derives a taxable income elasticity (Feldstein (1995)), does or does not is a controversial
question, with Slemrod (1996b) arguing that timing effects dominate the results.
50
changes in taxable income in other bases. For example, if a decline in personal tax rates
causes a shift from C corporation status to S corporation status, the increased personal
taxable income must be netted against decreases in corporate taxable income.
8. CONCLUSION
The possibilities for evasion and the difficulties of administration have always
shaped tax systems. Until recently, formal analysis of taxation largely ignored these
realities. After a quarter of a century of research on the topic, it is time to put to rest the
claim that this is an understudied area. Instead, it is a vibrant area of research that has
clarified the positive and normative analysis of taxation.
The research has clarified that when the tax structure changes, people may alter
their consumption basket, but they also may call and give new instructions to their
accountant, change their reports to the IRS, change the timing of transactions, and effect
a set of other actions that do not directly involve a change in their consumption basket.
In many cases, particularly for high-income taxpayers, this latter set of responses has
larger revenue and welfare implications than the real substitution responses, such as labor
supply, that tax analysis has traditionally focused on.
Early models of this area focused on tax evasion, modeled as a gamble against the
enforcement capability of the state. More recently, the literature has examined more
general models of the technology of avoidance, with the additional risk bearing caused by
tax evasion either being a special case of this technology or one aspect of the cost of
changing behavior to reduce tax liability. A critical aspect of this technology is whether
the avoidance is inframarginal, in which case only income effects are involved, or
whether its cost depends on other aspects of behavior. If the latter is true, the choice of
consumption basket and avoidance become intertwined because certain activities may
facilitate avoidance, which alters their effective relative price or return.
Acknowledging the variety of behavioral responses to taxation greatly enriches
the normative analysis of taxation. It changes the answers to traditional subjects of
inquiry, such as incidence, optimal progressivity, optimal commodity taxation, and the
optimal mix between income and consumption taxes. It also raises a whole new set of
policy questions, such as the appropriate level of resources to devote to administration
51
and enforcement, and how those resources should be deployed. A recurring question that
runs throughout this chapter is whether the standard toolkit of positive and empirical
analysis can be applied to avoidance, evasion, and administration. The answer is a
qualified yes, as this chapter hopefully demonstrates.
In one respect, though, the policy perspective does change in an important way.
The magnitude of real substitution response, such as labor supply, to taxes is presumed to
be an immutable function of preferences, and not susceptible to policy manipulation in a
free society. With respect to avoidance and evasion, though, this hands-off approach is
not appopriate. On the contrary, there are a variety of policy instruments that can affect
the magnitude and nature of avoidance and evasion response, ranging from the activities
of the enforcement agency to how tightly drawn are rules and regulations. The same kind
of cost-benefit calculus applies to the choice of these instruments, implying that the
elasticity of behavioral response is itself a policy instrument, to be chosen optimally.
A key challenge for the future is to add more empirical content to the theoretical
models of taxpayer and tax agency behavior. This will require, inter alia, addressing the
technology of raising and avoiding taxes. This is the analogue to the critical role for
traditional taxation theory of the empirical investigation of the structure of individuals'
preferences. Although by their nature the appropriate data are often difficult to come by,
new approaches such as controlled field experiments and analysis of changes in tax
administration are promising.
It would also be fruitful to incorporate public choice considerations into the
analysis. In some case administrative difficulties as well as widespread avoidance and
evasion are caused by the inability of compromise-seeking legislators to agree upon a
well-defined law. Furthermore, there is apparently no political constituency for tax
simplicity and facilitated adminstration. Combining analysis of the public choice
mechanisms that produce tax systems with the kind of normative analyses discussed in
this chapter may lead to a more complete understanding of the reality of taxation.
52
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